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Transcript
Spinal ganglia, their
structure and functional
importance.
Part I: Spinal cord
1. Organization
- General
- Cauda equina
- Meninges
2. Structure
 Grey matter
 White matter
3. Blood supply
4. Spinal nerves
- Typical n.
- Components


Cauda equina
Meninges


Components: Nerve cells, Processes,
Neuroglia, Blood vessels
Grey columns: Anterior, Posterior, Transverse,
Lateral



Posterior horns contain
interneurons.
Anterior horns contain some
interneurons as well as the cell
bodies of motor neurons.


These cell bodies project their axons via the
ventral roots of the spinal cord to the skeletal
muscles.
The amount of ventral gray matter at a given
level of the spinal cord is proportional to the
amount of skeletal muscle innervated.

Lateral horn neurons are
sympathetic motor neurons
serving visceral organs.



Their axons also exit via the
ventral root.
Afferent sensory fibers
carrying info from
peripheral receptors form
the dorsal roots of the spinal
cord. The somata of these
sensory fibers are found in
an enlargement known as a
dorsal root ganglion.
The dorsal and ventral roots
fuse to form spinal nerves.

Anterior:



Medial group: skeletal
muscles of the neck and
trunk
Central group: cervical
and lumbosacral
segments & contains the
phrenic, asccessory and
lumbosacral nuclei
Lateral group: cervical
and lumbosacral areas
innervating skeletal
muscles of the limbs

Posterior:




Substantia gelatinosa:
concerned with pain,
temperature and touch
Nucleus proprius: fibers
from white posterior
column associated with
proprioception, 2-piont
discrimination and
vibration
Nucleus dorsalis (Clark’s
column) from C8 – L3/4
proprioceptive endings in
spindles
Visceral afferent nucleus
from T1– L3 receives
visceral afferent
information
Transverse:


Contains central
canal that starts in the
MO,
Inferiorly expands in
the conus medullaris
as the terminal
ventricle: CSF &
ependyma
Lateral:

From T1–L2/3

Give rise to
preganglionic
sympathetic fibers

Similar group in S2-4
give rise to
preganglionic
parasympathtic fibres





Mixture of myelinated nerve fibers, neuroglia
and blood vessels
Ascending tracts
Descending tracts
Ascending and descending tracts with the
same origin, course and termination:
Fasciculus
Intersegmental tracts



Myelinated nerve fibers.
Allows for communication btwn the brain and spinal cord
or btwn different regions of the spinal cord.
White matter on each side of the cord is divided into
columns or funiculi.

Typically, they are ascending or descending.
 What does that mean?




Sensory, contain 1st, 2nd and 3rd order neurons
Pathways for temperature, pain, proprioception
Examples: Spinothalamic tract (lateral & anterior,
fasciculus gracilis and cuneatus); Spinocerebellar tract
(anterior & posterior); Cuneocerebellat tract.
Other: Spinotectal, spinoreticular, spino-olivary, visceral
sensory


White matter from the supraspinal centers with 1st, 2nd
and 3rd order motor neurons
Examples: Corticospinal, reticularspinal, tectospinal,
rubrospinal, vestibulospinal, olivospinal, descending
autonomic



From vertebral, posterior intercostal, lumbar, lateral sacral, ascending
cervical, deep cervical, iliolumbar aa.
Posterior spinal a. in close association to posterior spinal roots, but is
insufficient to supply the spinal cord alone
Anterior spinal a. unite to for a single artery on the median fissure of the
spinal cord.


Radicular a. reinforce the spinal arteries by entering
through the intervertebral foramina
Larger anterior radicular arteries: A. radicularis magna
(artery of Adamkiewicz) from the left an intersegmental
branch of the descending aorta, that supplies 2/3rds of
the spinal cord



Internal (anterior & posterior) venous plexus
External venous plexus (anterior & posterior)
Basivertebral and intervertebral veins.


Posterior (dorsal) root: Supplies synovial joints of the
vertebral column, deep muscles of the back & overlying
skin. Posterior root ganglia: Sensory, unipolar with
satellite cells.
Anterior (ventral) root: Supplies the remaining areas:
anterior & lateral regions of the trunk and limbs
What brainstem
structures are
visible here?

Extensive network of neurons
that runs thru the medulla and
projects to thalamic nuclei that
influence large areas of the
cerebral cortex.


Midbrain portion of RAS most
likely is its center
Functions as a net or filter for
sensory input.



Filter out repetitive stimuli. Such
as?
Allows passage of infrequent or
important stimuli to reach the
cerebral cortex.
Unless inhibited by other brain
regions, it activates the cerebral
cortex – keeping it alert and
awake.
How might the “sleep centers”
of your brain work? Why does
alcohol make you tired?


What is the major protection for
the brain?
There are also 3 connective tissue
membranes called the meninges:
 Cover and protect the CNS
 Protect blood vessels
 Contain cerebrospinal fluid

The 3 meninges from superficial
to deep:
 Dura mater
 Arachnoid mater
 Pia mater
Skin
Galea Aponeurotica
Connective Tissue
Bone
Dura Mater
Arachnoid mater




Functions to transmit messages to
and from the brain (white matter)
and to serve as a reflex center (gray
matter).
Tube of neural tissue continuous
w/ the medulla at the base of the
brain and extends about 17” to just
below the last rib. (Ends at L1)
Majority of the SC has the diameter
of your thumb
Thicker at the neck and end of the
cord (cervical and lumbar
enlargements) b/c of the large
group of nerves connecting these
regions of the cord w/ the arms
and legs.


Surrounded by a single
layered dura mater
and arachnoid and pia mater.
Terminates in cone shaped
structure called the conus
medullaris.


The filum terminale, a fibrous extension
of the pia mater, extends to the posterior
surface of the coccyx to anchor the
spinal cord.
The cord does not extend the entire
length of the vertebral column – so a
group of nerves leaves the inferior
spinal cord and extends downward.
It resembles a horses tail and is
called the cauda equina.


Notice the gross features
of the spinal cord on the
right.
31 pairs of spinal nerves
attach to the cord by
paired roots and exit
from the vertebral canal
via the intervertebral
foramina.





Resembles a butterfly.
2 lateral gray masses connected by the gray
commissure.
Posterior projections are the posterior or dorsal horns.
Anterior projections are the anterior or ventral horns.
In the thoracic and lumbar cord, there also exist lateral
horns.

31 nerves connecting
the spinal cord and
various body
regions.
 8 paired cervical




nerves
12 paired thoracic
nerves
5 paired lumbar nerves
5 paired sacral nerves
1 pair of coccygeal
nerves



Each connects to the
spinal cord by 2 roots –
dorsal and ventral.
Each root forms from a
series of rootlets that
attach along the whole
length of the spinal cord
segment.
Ventral roots are motor
while dorsal roots are
sensory.



The 2 roots join to
form a spinal
nerve prior to
exiting the
vertebral column.
Roots are short
and horizontal in
the cervical and
thoracic regions
while they are
longer and more
horizontal in the
sacral and lumbar
regions.
Almost immediately after emerging from its intervertebral
foramen, a spinal nerve will divide into a dorsal ramus, a
ventral ramus, and a meningeal branch that reenters and
innervates the meninges and associated blood vessels.



Each ramus is mixed.
Joined to the base of the ventral rami of spinal nerves in the thoracic
region are the rami communicantes. These are sympathetic fibers
that we’ll deal with shortly.
Dorsal rami supply the posterior body trunk whereas the thicker
ventral rami supply the rest of the body trunk and the limbs.
Thank you for
attention !